Mutation detail:
| Mutation site | T175M |
| Virus | SARS-CoV-2 |
Mutation level  |
Amino acid level |
| Gene/protein/region type | M |
| Gene ID | 43740571 |
| Country | Australia, Austria, Belgium, Brazil, Czech, Denmark, England, Finland, France, Germany, Iceland, Ireland, Italy, Netherland, Poland, Portugal, Russia, Scotland, Singapore, Sweden, Switzerland, THAILAND, USA, Wales |
| Mutation type |
nonsynonymous mutation |
| Genotype/subtype/clade | - |
| Sample |
Human |
| Variants | - |
| Viral reference sequence | NC_045512.2 |
| Drug/antibody/vaccine | - |
| Transmissibility |
- |
| Transmission mechanism | - |
| Pathogenicity |
- |
| Pathogenicity mechanism | - |
| Immune escape mutation | - |
| Immune escape mechanism | - |
| RT-PCR primers probes | - |
Protein detail:
| Protein name | Membrane Glycoprotein |
| Uniprot protein ID | P0DTC5 |
| Protein length | 222 amino acids |
| Protein description | The membrane protein is present in high amounts out of all proteins in coronaviruses . Its length spans to about 220-260 amino acids with a short length N terminal domain, attached to triple transmembrane domains that are further connected to a carboxyl-terminal domain and belong to the N-linked glycosylated proteins with a conserved domain of 12 amino acids. Out of the three TDM, the first one is capable enough to encourage self-association of M proteins, improved membrane affinity, and retention in Golgi. The membrane protein is a transmembrane glycoprotein, is the most abundant structural protein in the virus particle and has been suggested as an antiviral drug target. |
Literature information:
| Pubmed ID | 34147651 |
| Clinical information | No |
| Disease | - |
| Published year | 2021 |
| Journal | INFECTION GENETICS AND EVOLUTION |
| Title | Global variation in SARS-CoV-2 proteome and its implication in pre-lockdown emergence and dissemination of 5 dominant SARS-CoV-2 clades |
| Author | L Ponoop Prasad Patro, Chakkarai Sathyaseelan, Patil Pranita Uttamrao, Thenmalarchelvi Rathinavelan |
| Evidence | To track the emergence as well as the persistence of mutations during the early stage of the pandemic, a comparative analysis of SARS-CoV-2 whole proteome sequences has been performed by considering manually curated 31,389 whole genome sequences from 84 countries.Supplementary material 2 |